NSX-V to NSX-T Migration using Layer 2 Bridging
This blog will explore how we can migrate workloads which are on hosts prepared for NSX-V to hosts prepared for NSX-T using NSX-T Layer 2 Bridging.
Cluster Setup |
In the lab setup, four hosts ESXi 1 up to 4 are prepared for NSX-T and the remaining four hosts ESXi5 up to ESXi 8 are prepared for NSX-V
NSX-T edges used for Layer 2 bridging are on NSX-V prepared hosts.
Logical Setup |
The above is the logical setup used in this lab.
IP Addressing |
Above shows the IP addressing used in the lab.
BGP AS Numbering |
The above picture shows the BGP AS numbering used.
BGP peerings |
The above diagram shows the BGP peerings.
e-BGP peerings between NSX and the physical network.
i BGP between NSX-V edges and Distributed Logical Router.
There is no routing protocol between Tier 1 Gateway of NSX-T and Tier 0 Gateway upstream.
During migration, traffic flow will be through NSX-V edges which means that:
1. You can prefer not to advertise connected subnets on the Tier 1 Gateway
2. Or to keep BGP disabled on Tier 0 Gateway.
NSX-V Setup
NSX-V Prepared Cluster |
Workloads hosted on both clusters |
We need to make sure that security settings of the port group (corresponding to the VXLAN being bridged) are set accordingly.
- Set promiscuous mode on the portgroup.
- Allow forged transmit on the portgroup.
Security settings of VXLAN backed port group |
NSX-T Setup
Overlay Transport Zone defined using REST API Client |
To ensure unique mac addresses are used on layer 3 interfaces of DLR and Tier 1 Gateway respectively, ensure overlay transport zone in NSX-T is defined as above with
Compute host transport nodes prepared for NSX-T |
NSX-T Edges |
Edge used for L2 Bridging |
NSX-T Edge Clusters |
Tier 0 Gateway |
Tier 1 Gateway |
NSX-T Segment connected to Tier 1 Gateway |
Gateway set on NSX-T Segment |
Validation of the setup
VM on NSX-T Segment |
Traffic flow from VM on NSX-T Segment to loopback interface of physical router |
Migration
Now we will migrate the VM which is on NSX-V prepared cluster to NSX-T prepared cluster.
With this, both the workloads will then be on NSX-T prepared cluster.
At this point of time, we need to ensure that workloads have Tier 1 Gateway as their gateway.
We will ensure BGP peerings between physical routers and NSX-T edges are now all up.
And disable the BGP peerings between physical routers and NSX-V edges
Workloads migrated to NSX-T prepared cluster |
Above picture shows that workloads have moved to NSX-T prepared cluster.
After migration, traffic flow from physical router to VMs on NSX-T segment |
From the physical router, we validate that BGP peerings with NSX-T edges are now up and those with NSX-V edges are down.
Traffic now starts flowing through NSX-T edges.
VM on NSX-T Segment to loopback IP of physical router |
VM on NSX-T segment to loopback IP of physical router |
Traffic flow after migration |
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